A new five-parameter MOS transistor mismatch model

Abstract The paper presents test procedures designed for application-specific integrated circuit (ASIC) CMOS VLSI chip prototype that implements a synchronized oscillator neural network with a matrix size of 32×32 for object detecting in binary images. Networks of synchronized oscillators are recently developed tool for image segmentation and analysis. This paper briefly introduces synchronized oscillators network. Basic chip analog building blocks with their test procedures and measurements results are presented. In order to do measurements, special basic building blocks test structures have been implemented in the chip. It let compare Spectre simulations results to measurements results. Moreover, basic chip analog building blocks measurements give precious information about their imperfections caused by MOS transistor mismatch. This information is very usable during design and improvement of a special setup for chip functional tests. Improvement of the setup is a digitally assisted analog technique. It is an original idea of oscillators tuning procedure used during chip prototype testing. Such setup, oscillators tuning procedure and segmentation of sample binary images are presented

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Sensitivity of MOS transistor mismatch to device dimensions and suggestions on how to improve matching performance

10.1049/ic:19950933 ◽

1995 ◽

Cited By ~ 1

Author(s):

S.J. Lovett

Keyword(s):

Mos Transistor ◽

Transistor Mismatch ◽

Matching Performance

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Optimizing MOS transistor mismatch

IEEE Journal of Solid-State Circuits ◽

10.1109/4.654947 ◽

1998 ◽

Vol 33 (1) ◽

pp. 147-150 ◽

Cited By ~ 66

Author(s):

S.J. Lovett ◽

M. Welten ◽

A. Mathewson ◽

B. Mason

Keyword(s):

Mos Transistor ◽

Transistor Mismatch

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ACHIEVING ANALOG ACCURACY IN NANOMETER CMOS

International Journal of High Speed Electronics and Systems ◽

10.1142/s0129156405003193 ◽

2005 ◽

Vol 15 (02) ◽

pp. 255-275 ◽

Cited By ~ 5

Author(s):

MICHAEL P. FLYNN ◽

SUNGHYUN PARK ◽

CHUN C. LEE

Keyword(s):

Power Consumption ◽

Analog Circuits ◽

Thermal Noise ◽

Analog Circuit ◽

Cmos Technology ◽

Mos Transistor ◽

Nanometer Cmos ◽

Transistor Mismatch ◽

Current Design ◽

Circuit Techniques

This paper reviews causes of and trends in MOS transistor mismatch, and assesses the implications for analog circuit design in the nanometer régime. The current understanding of MOS transistor mismatch is reviewed. In most cases, transistor mismatch is dominated by threshold voltage mismatch. Although, there is strong evidence that VT matching is improving as CMOS technology evolves, these improvements are countered by reductions in power supply that also accompany process scaling. In fact, the power consumption of analog circuits based on current design styles will increase with scaling to finer processes. It has long been known that thermal noise causes the power consumption of analog circuits to increase with scaling. However, unlike the case with thermal noise, new circuit techniques can break the accuracy-power constraints related to mismatch. These techniques are based on analog circuit redundancy, and take advantage of the tremendous transistor density offered by nanometer CMOS. This paper is primarily concerned with comparators, and in particular, with the use of comparators in flash ADCs; however, the analysis is also applicable to other circuits and applications.

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